Title :
Chip to wafer copper direct bonding electrical characterization and thermal cycling
Author :
Beilliard, Y. ; Coudrain, P. ; Di Cioccio, L. ; Moreau, Sandrine ; Sanchez, L. ; Montmayeul, Brigitte ; Signamarcheix, Thomas ; Estevez, R. ; Parry, Guillaume
Author_Institution :
STMicroelectron., Crolles, France
Abstract :
Copper direct bonding technology is considered to be one of the most promising approach for matching the miniaturization needs of future 3D integrated high performance circuits (3D-IC). In this study, we discuss the recent achievements in copper direct bonding technology with oxide/copper mixed surface and present the latest electrical and physical characterizations of chip to wafer bonding structures after annealing at 400°C and thermal cycling tests. In addition, electrical performance of chip to wafer bonding on 300mm wafers is also presented. Finally, thermo-mechanical finite element simulations showing the impact of the annealing conditions on the closure of the interface are shown.
Keywords :
annealing; bonding processes; chip scale packaging; finite element analysis; thermomechanical treatment; three-dimensional integrated circuits; wafer level packaging; 3D integrated high performance circuits; 3D-IC; Cu; annealing; chip copper direct bonding; copper direct bonding technology; electrical characterizations; oxide-copper mixed surface; physical characterizations; temperature 400 degC; thermal cycling tests; thermomechanical finite element simulations; wafer copper direct bonding; Annealing; Bonding; Conductivity; Copper; NIST; Resistance; Semiconductor device modeling; 3D integration; chip to wafer; copper direct bonding; electrical characterization; finite element simulations;
Conference_Titel :
3D Systems Integration Conference (3DIC), 2013 IEEE International
Conference_Location :
San Francisco, CA
DOI :
10.1109/3DIC.2013.6702315
